TB-500 is a synthetic heptapeptide (LKKTETQ) fragment of Thymosin Beta-4 that binds G-actin to support cytoskeletal repair, angiogenesis, and tissue regeneration. Used for soft-tissue healing and recovery.
TB-500 (Thymosin Beta-4 Fragment 17–23)
Also known as: Tβ4(17–23); TB-500
Overview
Benefits
- Enhances cell migration
- Accelerates tendon/ligament repair
- Promotes angiogenesis
- Limits fibrosis
- Improves recovery
- May aid hair growth
Consider This Peptide If You Want To
- Recover from injury or physical strain
- Accelerate tissue repair
Dosage & Administration
Dosage Guidelines
Recommended Dosage
• Amount:2 mg
• Frequency:alternate
• Duration:8 weeks
• Rest Period:6 weeks
• Time of Day:evening
• Ingestion:subcutaneous
Administration Routes:Subcutaneous
Research Findings on Dosage:
Subcutaneous Injection:
• Commonly Reported Dosage: 300 mcg up to 1 g daily OR 2-2.5 mg every other day
◦ Lower doses for immune function
◦ Higher doses (up to 1 g daily) may be used for extensive tissue repair or regeneration.
• Duration: Use for no more than 3 months consecutively, followed by 6 weeks off
◦ Notes: TB-4 and BPC-157 are often stacked together to facilitate a much higher rate of healing than either compound used individually.
Administration Notes:
Administer subcutaneously near the site of injury for localized repair
Best used independently from full-length Tβ4 to avoid receptor competition
Mechanism of Action
Mechanism of Action
How this peptide works in the body
Actin Sequestration and Cell Migration
The LKKTETQ motif is the primary actin-binding region of Tβ4. This fragment binds G-actin monomers, preventing their premature polymerization and allowing cells to dynamically reorganize their cytoskeleton. This actin remodeling enables cell motility, which is critical for the migration of fibroblasts, keratinocytes, and endothelial cells into the site of injury to initiate repair.
Promotion of Angiogenesis
TB-500 stimulates new blood vessel formation by enhancing the migration and alignment of endothelial cells. It indirectly activates the vascular endothelial growth factor (VEGF) pathway and increases nitric oxide (NO) availability via upregulation of endothelial nitric oxide synthase (eNOS). This improves perfusion of healing tissues and supports sustained regeneration.
Inhibition of Fibrotic Tissue Development
Although not directly antifibrotic, this fragment may reduce inappropriate scar tissue formation by limiting the expression of α-smooth muscle actin (α-SMA) and inhibiting myofibroblast persistence in healing tissue. This results in more elastic and functional tissue regeneration.
Stimulation of Regenerative Signaling Cascades
Activates downstream effectors of PI3K/Akt and FAK (focal adhesion kinase) signaling, both of which are critical for cellular survival, adhesion, and proliferation. These pathways are essential for coordinating the rapid repair of muscle and tendon fibers after mechanical injury.
Support of Stem/Progenitor Cell Recruitment
Emerging data suggest this fragment may attract resident progenitor cells, including satellite cells in skeletal muscle and tenocytes in tendons, accelerating localized tissue turnover and repair.
Consider Stacking With
- Any GHRP
- Any GHRH
- BPC-157
- TB-4
- LL-37
- TA-1
- KPV
- ARA-290
- GHK-Cu
Side Effects & Cautions
Common Side Effects
- Mild redness or irritation
Cautions
- Avoid in histamine intolerance
- Not for chronic systemic use
- Don’t combine with full Tβ4
Rare Side Effects
- Possible mast cell activation
Research & References
Research Highlights
The LKKTETQ region has been shown to be essential for Tβ4-mediated cell migration and tissue repair
Preclinical studies confirm enhanced angiogenesis and faster wound closure using TB-500 in dermal and muscle injury models
Preliminary research suggests this fragment reduces inflammatory cytokine infiltration in the early healing phase
References
Thymosin β4 Protein Therapy for Cardiac Repair. Published: 2012-01-31. PubMed Link
The Effect of Thymosin Treatment on Venous Ulcers. Published: 2013-05-01. PubMed Link
Thymosin β4 for Corneal Healing in Severe Dry Eye. Published: 2019-10-01. NCBI Link
Thymosin β4: Role in Neuroinflammation and Repair. Published: 2018-09-01. NCBI Link